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Letter of Attestation IEEE C62.41-2002
PVI 1800/PVI 2500
INSTALLATION AND OPERATION MANUAL
Residential/Commercial Grid-Tied Photovoltaic Inverter
© 2006, Solectria Renewables
Subject to Change REV 1.04.4
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IMPORTANT SAFETY INSTRUCTIONS This manual contains important instructions that shall be followed during installation and maintenance of the PVI 1800/PVI 2500 Inverter. To reduce the risk of electrical shock, and to ensure the safe installation and operation of the inverter, the following safety symbols are used to indicate dangerous conditions and important safety instructions.
WARNING: This indicates a fact or feature very important for the safety of the user and/or which can cause a serious hardware damage if not applied appropriately.
Use extreme caution when performing this task. NOTE: This indicates a feature that is important either for optimal and efficient use or
optimal system operation.
EXAMPLE: This indicates an example.
SAVE THESE INSTRUCTIONS
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IMPORTANT SAFETY INSTRUCTIONS
• All electrical installations shall be done in accordance with the local and national electrical codes
ANSI/NFPA 70, NEC2005. • The PVI 1800/PVI 2500 contains no user serviceable parts. Do not open the inverter case as this
will damage the NEMA4, IP65 seal. Please contact Solectria Renewables or a Solectria Renewables authorized system installer for maintenance. (See page 46 or Solectria Renewables website, www.solren.com for Solectria Renewables contact information and authorized system installers.)
• Before installing or using the PVI 1800/PVI 2500, please read all instructions and caution
markings in this manual and on the PVI 1800/PVI 2500 unit as well as the PV modules.
• Connection of the PVI 1800/PVI 2500 to the electric utility grid must be done after receiving prior approval from the utility company and performed only by qualified personnel.
• Completely cover the surface of all PV-arrays with opaque (dark) materia l before wiring them or
use other methods to ensure safety from shock hazard. PV arrays produce electrical energy when exposed to light and could create a hazardous condition.
SAVE THESE INSTRUCTIONS
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Table of Contents
1 Introduction................................................................................................................... 5 2 Installation..................................................................................................................... 9 2.1 Checking for Shipping Damage ............................................................................ 9 2.2 Inverter Mounting ................................................................................................. 9 2.3 Electrical Connection and Connection to Electrical Utility Grid, Surge/Lightning Arrestors and Grounding Electrode Conductors........................ 14 3 Commissioning the Inverter and PV System ................................................................ 19 4 Power, Ground Fault, Error LED Indicators and LCD Display................................... 20 4.1 Power, Ground Fault and Error LED Indicators................................................... 21 4.2 The LCD Display.................................................................................................. 23 5 Trouble Shooting........................................................................................................... 30 6 Warranty........................................................................................................................ 34 6.1 Warranty Policy.................................................................................................... 34 6.2 Return Material Authorization Policy................................................................... 37 7 Technical Data .............................................................................................................. 37 8 Appendices.................................................................................................................... 43 Appendix A: Terminal assignment RS 485 / RS232.................................................... 43 Appendix B: PVI 1800 / 2500 Brochure / Datasheet................................................... 44 Appendix C: Example PV String Sizing Tables .......................................................... 45 Appendix D: Contact Information & Authorized Dealers and Installers .................... 46 Appendix E: UL Certification ...................................................................................... 47 Appendix F: Letter of Attestation IEEE C 62.41 – 2002…..………………………… 49
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1 Introduction The PVI 1800/PVI 2500 is a residential/commercial single phase, grid-tied PV inverter designed to be inter-connected to the electric utility grid. With this manual the PVI 1800/PVI 2500 can be installed and operated safely. This installation guide is used as reference for the commissioning and as a guideline on how to use the inverter most effectively. Feeding power into the grid involves conversion of the DC-voltage from the PV-array to grid compatible AC-voltage by “inverting” DC to AC. This unit feeds power into a standard 240 VAC split phase electrical system or two legs (phase to phase) of a 208 VAC, 3-phase commercial, industrial or institutional facility’s electrical system that is connected to the electric utility grid. If the PV system and inverter are providing the same amount of electrical power that the facility is using then no power is taken from or fed into the utility grid. If the facility is using more power than the PV system is providing, then the utility grid provides the balance of power. If the facility is using less power than the PV system is generating, then the excess is fed into the utility grid. Be sure to look into local regulations regarding net metering/inter-connection in your local area. Note that some utilities need to change their revenue kWh meter for proper net metering measurement or incentives/billing.
Fig. 1 Grid tied inverter application
Photovoltaic Array
PVI 1800/PVI 2500 Inverter
Electric Utility Grid
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The string PV concept The use of string PV concept significantly reduces the cabling costs on a photovoltaic system. The use of just one, two (or in some cases 3) parallel strings of PV modules in series has proven advantageous by delivering a high operating voltage to the solar inverter. This advantage is primarily reflected in a higher efficiency of the inverter. Careful optimization of the overall inverter system’s cost and efficiency lead to the choice of a 400V DC maximum system voltage for the PVI 1800 and 2500 for use with 1kW to 3kW PV arrays per inverter. Data acquisition, display and communication The integrated data acquisition, display and communication capability of the PVI 1800/PVI 2500 allows comprehensive tracking of data for understanding of system performance. All error messages and operating conditions of the PVI 1800/PVI 2500 as well as the PV system can be shown on the display. Downloading data from the PVI 1800/PVI 2500 for analysis on a PC is also possible over the data interfaces (RS232 or 485). These functions allow complete and continuous monitoring of the photovoltaic system. Read-out of data over the integrated interface and its display is only possible when the solar system is in operation. An optional full-featured, “inverter-direct” data acquisition and logging gateway and web-based service is available from Fat Spaniel. You can purchase this from Solectria Renewables or Fat Spaniel. It plugs into the inverter and to the facility’s internet service. Technical structure of the PVI 1800/PVI 2500 A high frequency switching bridge circuit operating in connection with a high frequency transformer provides galvanic isolation of the photovoltaic system from the building’s AC power (and electrical utility grid). The PV voltage and current are optimized in such a way that fluctuations which are caused by differing sunlight strengths and PV module temperatures can still end up producing the maximum possible power. Internal regulation of the PVI 1800/PVI 2500 is achieved using microcontrollers, which control the function of MPP (Maximum Power Point) tracking. The input PV voltage window is designed to cover a range of 125 to 400 VDC from the PV array. This means that many combinations of modules and strings from different manufacturers can be used. The inverter has nearly no standby power consumption and night–time losses (0.2 W). Even when running, the control circuit power use of the inverter is reduced to a minimum, which helps give the inverter high operational efficiency.
The housing and heat sink for the PVI 1800/PVI 2500 is manufactured using a heavy aluminium extrusion with an anti-corrosion finish. The housing is designed to NEMA4 and IP65 to be dust-proof and resistant to water spray. The heat sink (and fan on the PVI 2500) are designed in such a way that operation of the inverter is possible at ambient temperatures of -4° F (–20° C) to +131° F (+55° C) at full rated power (at 240VAC or 208VAC).
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The heat sink serves to conduct away heat generated from energy losses in the power electronics. Internal temperature regulation provides protection against excessively high temperatures inside the PVI 1800/PVI 2500. The maximum power processed from the PV array is automatically reduced to limit excessive inverter temperature.
The PVI 1800/PV2500 will only operate in parallel with the utility grid. AC grid monitoring is done by microcontrollers set up to meet the requirements of UL1741. This includes grid voltage or frequency fluctuations outside of the required limits, anti-islanding and other limitations and requirements, which ensure that the inverter shuts down immediately if the grid goes down, or if the grid gives surges, sags, changes frequency or otherwise shows signs of instability. If this happens, the inverter will check the grid and reconnect to the grid 5 minutes after the grid is back to normal. (The display then shows: “Waiting for restart”.) D isconnecting from the grid is important to protect the electrical and utility line workers who may be working to restore the grid as well as electricians working at a site with PV systems.
Power grid faults that will cause the PVI 1800/PVI 2500 to isolate itself from the power grid:
• AC grid voltage
The grid voltage must not go outside the range of +10/-12% of the nominal 240 or 208V AC grid voltage. The inverter will isolate itself from the power grid if these limits are exceeded either way. The PVI 1800/2500 will automatically detect 208 or 240VAC grid connections and disconnect if that grid voltage goes outside the +10/-12% window for this voltage.
• AC grid frequency
The power grid frequency can be within a range of +0.5Hz, -0.7Hz of the nominal 60Hz grid frequency. The inverter will isolate itself from the power grid if these permitted limits are exceeded either way.
Another important safety feature is galvanic isolation of the utility grid and the PV array as well as ground fault detection and interrupt (GFDI) of the PV array. The PV array negative is grounded inside the inverter (and must not be grounded at any other point).
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Diagram of the PVI 1800/PVI 2500 Features
Fig. 2 PVI 1800/PVI 2500 Features Diagram
(1) AC conduit fitting and conductors to building/grid (10 AWG, XHHW-2 wire)PV
(2) PV array ground fault interrupt (GFDI) fuse
(3) DC conduit fitting and conductors (10 AWG, XHHW-2 wire)
(4) Grounding Electrode Conductor connection point (on side of heat sink)
(5) Fan Connection (used on PVI 2500)
(6) RS-232/485 communication ports and caps
(7) LCD display and key pad
(8) LED indicators for basic operating status
(9) Fan assembly (on PVI 2500 only)
9
8
7
6
1
2
4
5
3
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2 Installation
WARNING: Before installing the PVI 1800/PVI 2500, read all instructions and caution markings in this manual and on the PVI 1800/PVI 2500 as well as on the photovoltaic modules.
WARNING: E lectrical installation shall be done in accordance with all local electrical codes and the National Electrical Code (NEC2005), ANSI/NFPA 70.
WARNING: Connecting the PVI 1800/PVI 2500 to the electric utility grid must only be done after receiving prior approval from the utility company and installation completed only by qualified personnel/licensed electrician(s).
2.1 Checking for Shipping Damage The PVI 1800/PVI 2500 inverters are thoroughly checked and tested rigorously before they are shipped. Even though they are delivered in a rugged, heavy cardboard box, the inverters can be damaged in shipping which is typically the fault of the shipping company. Please inspect the inverter thoroughly after it is delivered. If any damage is seen please immediately notify the shipping company. If there is any question about potential shipping damage, contact Solectria Renewables. A photo of the damage may be helpful. Do not accept unit if visibly damaged or note visible damage when signing shipping company receipt. Report damage immediately to the shipping company. Do not remove the unit from packaging. If it is determined that the unit must be returned, an RMA# must be obtained from Solectria Renewables.
2.2 Inverter Mounting The PVI 1800/PVI 2500 inverter is made up of a sealed NEMA 4 /IP65 corrosion resistant aluminum enclosure containing all electrical and electronic components.
NOTE: If the PVI 1800/PVI 2500 is mounted outside, make sure the mounting & wiring is completed, at least to the AC and DC disconnects or junction box(es) in case of rain during the installation process (for example overnight rain). Since the AC and DC connections are wired to the disconnects and or junction box(es) only, there is no need to open the inverter enclosure during hook-up. The inverter enclos ure is factory sealed and must NOT be opened at any time in the field or the NEMA4, IP65 seal will be compromised and this will void the warranty.
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Notes regarding mounting and placement of the inverter Criteria for device mounting: • Because the inverter is in a NEMA4/IP65 sealed enclosure, the inverter can be mounted outdoors. • The very longest life for the inverter can be achieved by mounting it in a clean, dry and cool location
even given the unit’s robust construction and design for efficient coolin g. It is recommended to keep the unit out of direct rain.
• For optimal electrical efficiency, use the shortest possible AC and DC wires and use the maximum
allowable wire size. (10AWG minimum is recommended for all connections, both AC and DC.) • Avoid ins tallation in close proximity to people or animals, as there is a small amount of high-
frequency switching noise. • Install the inverter in an accessible location following NEC and local codes. Note NEC requirements
for disconnect door clearances and proximity to other equipment and building walls. • Although not required, installation at eye-height allows easy reading of the indicator LEDs and the
LCD display. • For optimal inverter life and performance, do not mount the inverter in direct sunlight, especially in
hot climates, although the inverter is designed to function at full power continuously in up to 131o F (55o C) ambient temperatures. In hot climates if the unit must be mounted in direct sunlight a silver or white metal sun-shield is highly recommended. It is recommended that the inverter be mounted on the north (or east) side of buildings or on the north side of a PV array (which can provide some shade). Following these guidelines can help prevent the unit from going automatic into de-rating due to excessively high inverter case temperature.
• In hot climates, the housing and heat sink can reach 176o F (80o C) and must be mounted on an
appropriate material for this temperature as well as one that meets NEC and local codes. The inverter should not be mounted where people are likely to touch the case or heat sink due to the high potential temperature.
CAUTION: Please follow these guidelines:
• The inverter weight is about 35 lbs. (16kg). Be sure method used for fastening the unit to the wall
will safely hold this weight.
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• The ambient temperature must be between –4o F (–20o C) and +131o F (+ 55o C) for full continuous,
full power operation. (The inverter will automatically reduce power or shut down to protect itself if the ambient air temperature rises above 131o F (55o C).)
• The National Electrical Code (NEC) requires that the inverter be connected to a dedicated AC circuit
and no other AC outlets or device may be connected to this circuit. See NEC Section 690.64. The NEC also imposes limitations on the size of the inverter and the manner in with it is connected to the utility grid. See NEC Section 690.64.
• The cooling air enters at the bottom and exhausts at the top of the unit. • A minimum distance of 6 inches (152mm) must be clear above and below the inverter for ventilation. • The inverter must be mounted directly on a flat (wall) surface. (Do not mount to open studs or any
horizontal or vertical beams or struts as this can hinder proper cooling performance). The inverter must be mounted vertically (see mounting photos).
• If you are installing the inverter in a utility vault or electrical closet, the air circulation must be
sufficient for heat dissipation – provide external ventilation, to maintain an ambient condition of less than 131o F (55o C). The ambient temperature should be kept as low as possible.
• See photo and use dimensional diagrams for correct mounting of the inverter.
Painted plywood board in basement (BPVS)
Typical mounting on plywood board (Sunlight Solar) Optional panel assembly available
Fig. 3 How to mount the inverter
Optional double panel assembly available
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Fig. 4 PVI 1800/PVI 2500 Dimensional Diagram
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Fig. 5 PVI 1800/PVI 2500 Mounting Screw Pattern
Mounting Details Using the mounting diagram Fig. 5, for screw positions on, wall. Four #10 or #12 screws can be used. It is recommended to use stainless steel screws, especially if used outdoors. Be sure to verify sheer and pullout strength of anchors or other wall attachments.
NOTE: Always use all 4 mounting screws. It is easiest to layout the 4 screw mounting pattern using Fig. 5, pre-install the 4 screws, backed out about 1/8-3/16” from the wall surface, install the inverter, then tighten the screws. The square mounting pattern for the screws is about 12-5/8” x 12-5/8”. A cardboard template is also included in the box with the inverter.
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NOTE: The inverter is set up with pre-wired AC and DC connections to make it very easy and quick to connect to a DC disconnect to the left of the inverter and an AC disconnect to the right. (Connections can also be made to junction boxes.)
2.3 Electrical Connection and Connection To Electrical Utility Grid
Fig. 6 Simplified electrical connection diagram
Location and Mounting the Inverter
NOTE: Choose the inverter location keeping in mind where the disconnects, and/or junction boxes and kWh meter (if needed) will be located. It is best to mark on the wall (or create a diagram) where all of the components are to be located. The inverter is set up with pre-w ired AC and DC connections to make it very easy and quick to connect to a DC disconnect to the le ft of the inverter and an AC disconnect to the right.
Refer to Figure 2 for Locations of Features, AC and DC Wires, etc.
WARNING: All electrical installations shall be done in accordance with all local electrical codes and the National Electrical Code (NEC), ANSI/NFPA 70.
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The negative DC photovoltaic connection is grounded within the inverter through the ground fault detection and interrupt circuit (GFDI). The PV negative should not be grounded at any other point in the system. The PV positive must never be grounded at any time.
AC and DC (PV) Connections: The PVI 1800 and PVI 2500 inverters are pre-wired with 54” (1.35 meter) wires for both the DC (PV) input and the AC connection to the building/grid (so that a 48” long conduit can be used leavin g 6” of conductors available for connection in the disconnect, junction box, etc.). The units are also equipped with conduit fittings that are NEC code -compliant for use with both metallic and non-metallic flexible 1/2” conduit (the conduit fittings are included on the unit as well as the wires but the conduit needs to be added during installation). This design allows installation and wiring of the inverter to be done without opening the inverter. Lightning and Surge Protection: The inverter is designed with certain protections against surges in voltage including certification to ANSI/IEEE 62.41/62.42 2002 (as required in the NY SIR), however added protection and solid grounding provisions are important for best protection against utility surges and surges created by indirect lightning strikes. The installation of a Delta lightning surge arrester or other UL listed arrester of the correct specification is recommended on both the DC and AC sides of inverter. This can be installed on the outside of the DC disconnect and wired using the manufacturer's directions. This device gives important added protection from indirect lightning strikes and resulting surges that provide protection beyond the inverter's UL1741 requirements. It is suggested to drive a ground rod specifically for the PV array. It is also a very good idea to have the lightning protection system of the building checked and upgraded if needed before the PV system is installed. (are there air conductors along the roof line of the building above the PV array? Do you see a copper ground wire running from the air conductors to a ground rod?) These added protections are especially important for areas prone to thunder storms and possible nearby lightning strikes. Although these added precautions will not guarantee that there will be no damage from lightning, they can help prevent or limit potential damage. Grounding Electrode Conductor: As with all PV systems, a Grounding Electrode Conductor must be installed per NEC690.47 (and 250.166). This conductor should be sized according to these NEC requirements. This conductor should be terminated on the labeled ground point located at the bottom end of the left heat sink fin. A ¼-20 stainless steel hex cap screw should be used with an appropriate ground lug.
WARNING: The inverter should not be opened at any time. The unit is sealed at the factory and its UL listing will no longer be valid and the warranty will be void if opened, as the seal cannot be guaranteed.
AC Voltage: The PVI 1800 and PVI 2500 are both 240V AC grid connected devices. They are also both suitable for 208V AC grid-connected use. For example, connection to 2 phase legs of a 208V AC, 3-phase service (where acceptable by code). Neither unit (PVI 1800 or PVI 2500) can be used with a 120V AC connection and no neutral connections can be made to the inverters. The units are factory pre-set for 240VAC use and can be set for 208VAC use by a qualified installer in the set-up menu.
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Multiple Units: Multiple PVI 1800 or PVI 2500 units can be used at the same location/facility assuming all codes are followed including NEC, local building codes and area utility guidelines. If multiple units are used, each inverter should have its own dedicated circuit breaker, and a PV string must only be wired to one inverter (although multiple PV strings can be used on each inverter up to unit ratings and power levels). AC Circuit Breakers: A dedicated AC circuit breaker in the home or building circuit panel is required for the PV inverter. For both the PVI 1800 and PVI 2500, a 15 Amp, 208/240V AC rated 2–circuit breaker is required. AC and DC Disconnects: It is recommended that the PV system AC and DC disconnects be located beside the inverter if possible but must conform to local code for your installation. This placement will make the best use of the “pre-wired” inverter feature and save installation time, material and effort as well as making a simple, reliable system. If local code requirements call for the AC and/or DC disconnect(s) to be mounted in another location, you can consider relocating the inverter also to the required location or add a small junction box or termination box to connect the PVI wires to building wiring going to disconnect location(s). Fig. 7 shows a typical installation with the AC and DC disconnects located on either side of the inverter.
Fig. 7 A typical PVI 1800 or PVI 2500 installation with AC and DC disconnects. (AC disconnect is on the right, DC disconnect on the left. PVI 2500 shown.
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Suggested AC Disconnect: 240V AC, 30A, 2 Blade, NEMA 3R Part Number Manufacturer
Rain-proof NEMA 3R, no fuse DU22IRB Square D Rain-proof NEMA 3R, fusible Rain-proof NEMA 3R, no fuse
TG3221R TGN3321R
GE GE
Pull-out disconnect, 3R, no fuse 3800 Millbank For some installations, code compliance may include indoor, NEMA 1 rated disconnects which are less expensive. For whichever disconnect is selected, you will also need the proper listed ground bar kit. (No neutral kit is needed, as no neutral line should enter the disconnect.) Connecting the AC Inverter Wire:
WARNING: The wiring of the PV inverter’s AC and DC wires must only be done with the building AC circuit breaker off and the PV array disconnected or covered with an opaque material (or other method to assure the PV wiring is not live). Both AC and DC disconnects should be off.
If the connection of the AC wires that are provided on the inverter is to be made to an AC disconnect or junction box, mount the disconnect or junction box. (Make sure the disconnect or junction box is close enough to the inverter so that the inverter wires will reach the disconnect or junction box via a conduit and so that an adequate length of wire will be available inside disconnect or junction box to make the connections/terminations to the L1, L2 and ground point.) As shipped, the conduit fittings included on the inverter have the wires but no conduit in them. The conduit is to be fitte d during installation. Measure and cut the 1/2” liquid-tight metallic or non-metallic flexible conduit to connect between the inverter’s AC conduit fitting and the disconnect or junction box. Next, install conduit fitting on the disconnect or junction box. Thread the inverter’s AC wires through conduit and into disconnect or junction box conduit fitting. Fit the conduit into the conduit fittings on inverter and disconnect or junction box and tighten. If needed, cut off the inverter AC wires to correct length(s) inside the disconnect or junction box. Finally, terminate inverter wires in disconnect or junction box. Black wires are L1 and L2. Green is the AC equipment ground. Connection Wiring To Electrical Utility Grid And Grid Impedance: The PVI 1800/PVI 2500 must be connected to the grid with 2 conductors and a ground wire. The grid impedance value at the connection point should be as low as possible to avoid an increase of the AC-voltage to non-permissible values while the inverter feeds to the grid. Minimizing wiring impedance also results in higher system efficiency.
EXAMPLE: The impedance is the sum of the electricity grid impedance at building distribution and all impedance values of conductors and connections. Single conductor impedance values are:
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• Approximately 0.40 ? for a 100 feet (76.2 m) 12 AWG conductors • Approximately 0.24 ? for a 100 feet (76.2 m) 10 AWG conductors
• Approximately 0.15 ? for a 100 feet (76.2 m) 8 AWG conductors
• Conductor impedance of < 0.40 ? is recommended
The total impedance phase to phase of the grid plus the interconnecting AC conductors should be less than 1.2 ? . Suggested DC Disconnects: 600V DC, 30A, 1-3 Circuits Part Number Manufacturer
Rainproof NEMA 3R HU361RB Square D 3 circuit, fused version H361RB Square D Rain proof NEMA 3R THN2261RDC GE
For some installations code-compliance may include indoor, NEMA 1 rated disconnects which are also available (typically less expensive). Also, for lower power/lower voltage configurations in which the maximum OCV (Open Circuit Voltage) of the PV array in cold weather extremes is less than 250V DC, per NEC690-7 (1.25X PV OCV, for example) it may be adequate to use 250V DC rated disconnects as well. The PVI 1800 and PVI 2500 inverters are not capable of back-feeding currents into the PV array from the AC source including into short circuit(s) or fault(s) in the PV array or string(s). This allows some flexibility regarding PV string configurations including parallel strings with and without string fusing. If string fusing is required, for example on a large 2-3 string system, the fused H361RB disconnect can be used. No separate fused PV combination is required. Refer to Square D Data Bulletin 3136DB0301 5/2003 for information. There are many one and two string configurations that do not need fusing. PV String Configurations: There is a huge number of PV module string combinations that will work well with the PVI 1800 and PVI 2500 inverters given the very large DC voltage range in which the inverter can operate. See string sizing in Appendix C for several examples. Connecting the DC (PV) Inverter Wire:
WARNING: Follow PV module manufacturer’s directions. PV-arrays produce electrical energy when exposed to light and could create a hazardous condition. (One method used to assure safety from shock is to completely cover the surface of all PV-arrays with opaque / dark material before wiring them.)
WARNING: Before connecting the connectors of the PV-panel to the DC disconnect enclosure and before connecting the DC inverter wire, check the correct polarity and admissible PV-panel voltage between the (+) and the (-) cable connectors of the PV panel.
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The PV-panel open circuit voltage must be below 400V DC (Vpv < 400V DC) under all conditions as per NEC 690-7 using multiplier for cold weather OCV. Please read the Technical Info section and see PV string sizing table in Appendix C.
WARNING: Even when in the off position, the DC disconnect will remain live on the PV side (“line”) when the PV modules are in daylight.
If the connection of the DC (PV) wire provided on the inverter is to be made to a DC disconnect or junction box, mount the DC disconnect or junction box. (Make sure the disconnect or junction box is close enough to the inverter so that the inverter’s DC wires will reach the disconnect or junction box via a conduit and that an adequate length of wire will be available inside the disconnect or junction box to make connections/termination to positive (+) switched terminals, negative (-) PV wire, and ground bar. It may be convenient to use a neutral kit for terminating multiple PV negatives.) The conduit fittings included on the inverter are open, as shipped (although the wires are inside conduit fittings, they have no conduit in them). Measure and cut the 1/2” metallic or non-metallic flexible conduit to go between the inverter’s DC conduit fitting and the DC disconnect or junction box. Next, install a conduit fitting in the DC disconnect or junction box. Thread the inverter’s DC wires through the conduit and into the DC disconnect or junction box conduit fitting. Fit the conduit into fittings and tighten fittings. If needed, cut off inverter’s DC wires to the correct length inside the DC disconnect or junction box. Finally, terminate inverter wires in the DC disconnect or junction box. Red wire is positive (+), white is negative (-) and green is ground.
3 Commissioning the Inverter and PV System The inverter is mounted, all connections are made and you are ready to power it up.
NOTE: Make sure all tools; parts, etc. are removed from the vicinity of the inverter before turning on. WARNING: Make a final check for correctness of all AC and DC wiring to the inverter and in the system. NOTE: With the PV modules connected and inverter disconnects still off, it is a good precaution to check PV polarity once more simply by carefully using a 600V, DC rated digital volt meter and probing the positive (+) and negative (-) PV connections in the disconnect.
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Turning on the inverter:
• Turn on the dedicated 2-circuit 240/208VAC circuit breaker on the home/building electrical panel
• Turn on the AC disconnect
• Turn on the DC disconnect
• Watch the LED indicators for initialization (all three LEDs on)
• Watch for blinking green LED and high frequency switching sound (this means that the inverter is on-line and beginning to feed power into the AC circuit), the inverter is operating normally
• Last, look for a steady green LED indicating the inverter has stabilized at Maximum Power Point
Operation: The control electronics will be active as soon as DC (PV) voltage reaches 125V DC. The inverter will go on-line with the utility/building grid when the DC voltage first exceeds 150V DC. Next, the inverter will load the array, bringing the DC voltage down from 150V DC to no less than 125V DC. Once there is enough PV power at 125V DC to back feed AC power switching will automatically feed power to the grid. Because the inverter goes completely off line at night or in dark conditions when no power can be produced, the standby losses are less than 0.25 Watt, adding 1-2% additional energy production annually compared to some competitor’s inverter designs that remain on all the time. Operating states, GFDI status and error indications shown by the LED indicators, an extensive data is shown by the LCD display which are described in chapter 4, “Power, GFDI, Error LED Indicators and LCD Display”.
4 Power, Ground Fault, Error LED Indicators and LCD Display The inverter operates automatically without the need for user interaction or maintenance. The PVI 1800/PVI 2500 automatically starts feeding AC power into the grid every morning as the sun rises, as soon as sufficient DC voltage and PV power is available. The inverter microcontroller runs through various checks before going online with the grid and feeding power into the grid.
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4.1 Power, Ground Fault and Error LED Indicators There are three light-emitting diodes (LEDs) mounted on the front (upper right corner) to show the operating condition of the inverter.
Fig. 8: Power, Ground Fault and Error Indicator
The green LED "Power" shows the current operating condition. The red LED "Ground Fault" shows if a ground fault is present. (If there is any ground current measured the value can be shown on the display, scrolling through the display is necessary to locate the Ground Fault current value) The yellow LED "Error" indicates whether there is an internal or external fault present and whether the AC grid back-feed has been interrupted. Description of LED symbols used to indicate LED status in this manual
LED Off LED flashing LED on
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LED indicator Operating condition Description
green: standby (night) input voltage < 120 VDC
yellow:
red:
green: initialization unit is being initialized
yellow:
red:
green: waiting, presence of valid grid conditions is
yellow: checking grid being checked
red:
green: power output to grid normal daytime operation
yellow: MPP or constant voltage mode
red:
green: / failure internal or external failure, exact
yellow: / description see display
red:
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4.2 The LCD Display The PVI 1800/PVI 2500 inverter is supplied ready to operate so there are no settings, which have to be made by the user for fully automatic feeding of power into the grid. The device comes standard with a display on which various types of information can be read. Settings can be made using the entry buttons located below and information can be retrieved. All indicated measurement data is just an indication and has tolerances of up to ± 8%.
Fig. 9 LCD Display Button (ESC): To move from the menu items into the main menu and also to leave the
Setup menu Button ( ) and ( ): To scroll through the individual menu items or to make settings in the
Setup menu Button ( ): To move around between the menu levels and to confirm inputs in the
Setup menu
Navigation within the display Display illumination Press any button to activate display illumination in Automatic mode.
Display illumina tion will then be automatically turned off if no key is pressed within 30 seconds. The Setup menu also offers the option of selecting between a constantly switched on or constantly switched off display illumination.
Display illumination can only be activated with the <Enter> - key when in Start-up mode.
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Main menu The main menu is sub-divided into 6 menu items and each menu item contains sub-menus: - Menu N (Now) - Menu D (Day) - Menu W (Week) - Menu Y (Year) - Menu T (Total) - Menu S (Setup) Description of the menu items: Actuation of the selection buttons ⇑ ⇓ allows you to scroll through the main menu. The sub-menus are then selected by pressing the <Enter> - button. Exit the menus by pressing the <ESC> - button.
ESC ENTER
1. Menu-NNow (act data) Sub Menu
2. Menu-DDay statistic
Sub Menu
3. Menu-WWeek statistic
Sub Menu
4. Menu-MMonth statistic Sub Menu
5. Menu-YYear statistic Sub Menu
6. Menu-TTotal statistic Sub Menu
7. Menu-SSetup Inverter Sub Menu
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Sub-menu N (Now) This menu item is used to view current values.
ESC ENTER
1. Menu-NNow
Indication of the presentpower output
1. N > AC-Powerxxxx W
Indication of the presentAC voltage
2. N > AC-Voltagexxxx V
Indication of the presentAC current
3. N > AC-Currentxxxx A
Indication of the presentgrid frequency
4. N > AC-Frequencyxxxx Hz
Indication of the presentsolar array voltage
5. N > Solar Voltagexxxx V
Indication of the presentsolar array current
6. N > Solar Currentxxxx A
Indication of the presentground current
7. N > GFDI currentxxxx A
Indication of the presenttime
8. N > TimeHH:MM:SS
Indication of the presentdate
9. N > DateWD,MM,DD,YYYY
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Sub-menu D (Day) This menu item is used to call up daily values regarding power fed to the grid.
ESC ENTER
2. Menu-DDay
Indication of the dailyenergy output
1. D > Energyxxxx Wh
Indication of the dailyrevenue in dollars
2. D > Revenuexxxxx.xx Dollars
Indication of the maximumpower output during day
3. D > AC-power-Maxxxxx W
Indication of the maximumAC voltage during the day
4. D > AC-Voltage-Maxxxx V
Indication of the minimumAC voltage during the day
5. D > AC-Voltage-Minxxx V
Indication of the maximumAC current during the day
6. D > AC-Current-Maxxx.x A
Indication of the maximumfrequency during the day
7. D > AC-Freq.-Maxxx.x Hz
Indication of the minimumfrequency during the day
8. D > AC-Freq.-Minxx.x Hz
Indication of daily operatingtime of the inverter
9. D > Runtimexxx min
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Sub-menu W (Week) This menu item is used to call up average values for the current week.
ESC ENTER
3. Menu-WWeek
Indication of the weeklyenergy output
1. W > Energyxxxx Wh
Indication of the weeklyrevenue in dollars
2. W > Revenuexxxxx.xx Dollars
Indication of the weeklyoperating time of inverter
3. W > Runtimexxxx h
Sub-menu M (Month) This menu item is used to call up average values for the current month.
ESC ENTER
4. Menu-MMonth
Indication of the monthlyenergy output
1. M > Energyxxxx kWh
Indication of the monthlyrevenue in dollars
2. M > Revenuexxxxx.xx Dollars
Indication of the monthlyoperating time of inverter
3. M > Runtimexxxx h
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Sub-menu Y (Year) This menu item is used to call up average values for the current year.
ESC ENTER
5. Menu-YYear
Indication of the annualenergy output
1. Y > Energyxxxx kWh
Indication of the annualrevenue in dollars
2. Y > Revenuexxxxx.xx Dollars
Indication of the annualoperating time of inverter
3. Y > Runtimexxxx h
Sub-menu T (Total) This menu item is used to call up values concerning the power fed to the grid since the PVI 1800 or PVI 2500 was first commissioned.
ESC ENTER
6. Menu-TTotal
Indication of the totalenergy output
1. T > Energyxxxxxx kWh
Indication of the totalrevenue in dollars
2. T > Revenuexxxxx.xx Dollars
Indication of the overallmaximum PV voltage
3. T > Sol.-Vol.-Maxxxx V
Indication of the overallmaximum PV current
4. T > Sol.-Cur.-Maxxx.x A
Indication of the overallmaximum PV power
5. T > Sol.-Pow.-Maxxxxx W
Indication of the totaloperating time of inverter
6. T > Runtimexxxx h
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Sub-menu S (Setup), the last line of the menu. The Setup menu serves to change the default settings of the PVI 1800/PVI 2500.
ESC ENTER
7. Menu-SSetup Inverter
Setting the brightnessand contrast of the LCDdisplay between 0 and 9
1. S > LCD-Contrastsetting 0 .. 9
Setting the LCD backlightmode
2. S > LCD-Backlightsetting Auto/On/Off
Selection of default menuon the display
3. S > Menu Modesetting Now .. Total
the revenue per kWh4. S > Cash per kWH
setting xx.xx Dollars
ID-number of the inverter5. S > ID-Numbersetting 001 .. 254
Baudrate of the serialconnection
6. S > Baudratesetting 2400 .. 38400
Setting the internal clock7. S > Time
setting HH.MM:SS
Setting the date8. S > Date
setting WD,MM,DD,YYYY
AC control card9. S > Version
view AC-Control x.x
DC control cardDC-Control x.x
DisplayDisplay x.x
Indication of the versionnumbers of sub assemblies
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5 Troubleshooting Diagnosis and analysing data Identifying and resolving faults The PVI 1800/PVI 2500 is fitted with a self-diagnostic system, which can recognise a majority of possible faults and show these on the display. This allows the operator to rapidly identify possible problems in the solar inverter or system. Internal communication errors Internal communication errors are indicated when a problem arises in the device. The technician responsible for servicing the device should be informed if the problem has been occurring over a long period of time. Code Designation Condition Solution
101 Hardware error, internal communication interrupted
The device resumes feeding the grid with power when automatic switching on of the inverter reconnects it with the power grid
The service technician should be informed if this error code has been seen repeatedly or continuously.
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External faults External faults are primarily faults caused by the utility company but can also be associated with mounting of the inverter and length of the AC lines; they concern the frequency and voltage. Such faults can also occur temporarily. The PVI 1800/PVI 2500 will, however, resume full automatic power feed after a short interruption. If the grid frequency or voltage is more or less that values prescribed by UL1741, the inverter will not re-start for 5 minutes and will display: “wait for restart” on the LCD display during this 5 minute period.
Code Designation Condition Solution
203 Grid frequency too high
The inverter switches over to normal power/feed mode as soon as the grid frequency returns to its nominal value.
Check the grid frequency The installer/service technician should be informed if this problem arises on a regular basis
204 Grid frequency too low
The inverter switches over to normal power/feed mode as soon as the grid frequency returns to its nominal value
Check the grid frequency The service technician should be informed if this problem arises on a regular basis
205 Extreme grid over-voltage
The inverter switches over to normal power/feed mode as soon as the power grid voltage returns to its nominal value
Check the grid voltage The installer/service technician should be informed if this problem arises on a regular basis
206 Grid over-voltage
The inverter switches over to normal power/feed mode as soon as the grid voltage returns to its nominal value
Check the grid voltage The installer/service technician should be informed if this problem arises on a regular basis
207 Grid under -voltage
The inverter switches over to normal power/feed mode as soon as the grid voltage returns to its nominal value
Check the grid voltage The installer/service technician should be informed if this problem arises on a regular basis
208 Extreme grid under-voltage
The inverter switches over to normal power/feed mode as soon as the grid voltage returns to its nominal value
Check the grid voltage The installer/service technician should be informed if this problem arises on a regular basis
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Internal operating errors Internal operating errors can be due to inadequate installation or layout, such as excessive temperatures due to poor selection of the inverter’s location, or to an internal fault. A service technician and Solectria Renewables should be consulted if this fault arises. Operating faults Code Designation Condition Solution
301 Internal fault on the device or a blown GFDI fuse. The device switches off.
Check the GFDI fuse. Please contact your installer/service technician or Solectria Renewables. We recommend switching off the device to prevent any damage occurring to it.
302 Excessively high temperature.
The device switches off and switches back into power/grid feed mode when the temperature has dropped down to normal operating temperature
Check to ensure that the device is not being directly subjected to sunlight. Please observe the description of the mounting. Please contact your installer/service technician or Solectria Renewables if this measure does not eliminate the fault.
Ground Fault: If a significant ground fault occurs in the PV array or wiring, the GFDI fuse (located on the wiring/connector panel) may be blown. If it is, determine and repair ground fault and replace fuse with Bussmann GBB-1 250VAC or Little Fuse 3AB 1A 250VAC 314001. If the GDFI detects a ground fault current larger than 0.8A, error 506 will be displayed. In addition to that the current value can be read in the display. Code Designation Condition Solution 506 Ground fault current larger than 0.8 A The device switches off Check installation Weak Sunlight Condition: Operation in weak sunlight, (for example early in the morning, when overcast or when snow is covering most or all of the PV array) can cause the inverter to go through a cycle of trying to start and restart several times. If you see: “Wait for restart”, “Sync to AC grid” and “Solar voltage too low”, “Solar power too low” on the LCD display, you have weak array out put power. Look again when the sunlight is stronger, clouds have cleared or snow has melted or fallen off of the array. It is possible that the length of time in the morning that this type of condition appears could gradually increase. This might indicate that there is an excessive build-up of dust or debris on the PV array. If you notice this condition, check and wash the array for maximum performance. It is possible that during these low power operating conditions the display shows error
301. This is normal. If this error occurs during startup, this error can also be ignored.
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Overview error codes
Code Designation Condition Solution
101 Hardware error, internal communication interrupted
The inverter resumes feeding the grid when automatic switching on of the inverter reconnects it with the grid
The service technician should be informed if this error code has been seen repeatedly or continously
203 Grid frequency too high The inverter switches to normal power/feed mode as soon as the grid frequency returns to its nominal value
Check grid frequency The service technician should be informed it this problem occurs on a regular basis
204 Grid frequency too low The inverter switches to normal power/feed mode as soon as the grid frequency returns to its nominal value
Check grid frequency The service technician should be informed it this problem occurs on a regular basis
205 Extreme grid over-voltage The inverter switches to normal power/feed mode as soon as the grid voltage returns to its nominal value
Check grid voltage The service technician should be informed it this problem occurs on a regular basis
206 Grid over-voltage The inverter switches to normal power/feed mode as soon as the grid voltage returns to its nominal value
Check grid voltage The service technician should be informed it this problem occurs on a regular basis
207 Grid under-voltage The inverter switches to normal power/feed mode as soo n as the grid voltage returns to its nominal value
Check grid voltage The service technician should be informed it this problem occurs on a regular basis
208 Extreme grid under-voltage The inverter switches to normal power/feed mode as soon as the grid voltage returns to its nominal value
Check grid voltage The service technician should be informed it this problem occurs on a regular basis
301
Internal fault on the device
or
blown GFDI fuse
The inverter switches off
Check the GFDI fuse
Please contact your installer/service technician or Solectria Renewables. We recommend switching off the inverter to prevent any damage occurring to it.
Note: this condition can occur during operation in weak sunlight. See page 32
302 Excessively high temperature
The inverter switches off and switches back into power feed mode when the temperature has dropped to the normal operating temperature
Check to ensure that the inverter is not subject to direct sunlight. Please observe the description of mounting. Please contact your installer/service technician or Solectria Renewables if this measure does not eliminate the fault
506 Ground fault current > than 0.8 A The inverter switches off Check installation
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6 Product Warranty & RMA Policy
6.1 Warranty Policy The Solectria Renewables Warranty Policy is stated below. Solectria Renewables Warranty Coverage: Solectria Renewables Limited Warranties are provided by Solectria Renewables, LLC. ("Solectria Renewables") and cover defects in workmanship and materials. Duration of a Solectria Renewables Warranty Period: The warranty period is 60 months from the date of purchase of the PVI 1800, PVI 2500, PVI13kW or PVI60KW, PVI77KW and PVI90KW by the end user or 64 months after the delivery date from Solectria Renewables to installer, dealer, distributor (merchant) whichever is shorter. If a warranty extension has been purchased, the term is defined as extension beyond 60 months. For example, if a 5-year extension (to 10 years total) is purchased, the term becomes 120 months from date of purchase. If Solectria Renewables repairs or replaces a product, its warranty continues for the remaining portion of the original Warranty Period or 90 days from the date of the return shipment to the customer, whichever is greater. All warranties are null and void if full payment for products and associated shipping are not received in full and in a timely manner by Solectria Renewables. Please contact Solectria Renewables Customer Service for further details on other products. What will Solectria Renewables do? Solectria Renewables will, at its option, repair or replace the defective product free of charge, provided that you notify Solectria Renewables of the product defect within the Warranty Period for your product, and provided that Solectria Renewables, through inspection, establishes the existence of such a defect and that it is covered by the Limited Warranty. Solectria Renewables will, at its option, use new and/or reconditioned parts in performing warranty repair and building replacement products. Solectria Renewables reserves the right to use parts or products of original or improved design in the repair or replacement. All replaced products and all parts removed from repaired products become the property of Solectria Renewables. Solectria Renewables will attempt to repair the unit within a reasonable time period (there is no reimbursement for lost energy production.) Solectria Renewables covers both parts and labor necessary to repair the product, and return shipment to the customer via a Solectria Renewables-selected non-expedited surface freight within the contiguous United States and Canada. Alaska and Hawaii are excluded. Contact Solectria Renewables customer service for details on freight policy for return shipments outside of the contiguous United States and Canada. In the event an extended warranty option has been purchased, this extended warranty only applies to exposed outdoor locations (defined as rooftop or open/unprotected locations) if the product has been
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purchased to include the gasket-sealed AC and DC disconnect option or has a protective cover around 3 sides of inverter unit (back and sides) and over the top, 4”-60” away from back and top and 30” -96” from sides. Obtaining Service: If your product requires troubleshooting or warranty service, contact your merchant. If you are unable to contact your merchant, or the merchant is unable to provide service, contact Solectria Renewables directly at the number listed on the website in the customer service section for your product. Direct returns may be performed according to the Solectria Renewables Return Material Authorization Policy. In any warranty claim, dated proof of purchase must accompany the product and the product must not have been disassembled or modified without prior written authorization by Solectria Renewables. Proof of purchase may be in any one of the following forms: - The dated purchase receipt from the original purchase of the product at point of sale to the end user , or - The dated merchant invoice or purchase receipt showing original equipment manufacturer (OEM) status, or - The dated invoice or purchase receipt showing the product exchanged under warranty. What does the Solectria Renewables warranty not cover? Solectria Renewables Limited Warranties do not cover normal wear and tear of the product or costs related to the removal, installation, or troubleshooting of the customer's electrical systems. These warranties do not apply to and Solectria Renewables will not be responsible for any defect in or damage to: a) The product if it has been misused, neglected, improperly installed, physically damaged or altered, either internally or externally, or damaged from improper use or use in an unsuitable environment; b) The product if it has been subjected to fire, water, generalized corrosion, biological infestations, acts of God or input voltage that creates operating conditions beyond the maximum or minimum limits listed in the Solectria Renewables product specifications including high input voltage from generators and lightning strikes; c) The product if repairs have been done to it other than by Solectria Renewables; d) The product if it is used as a component part of a product expressly warranted by another manufacturer; e) The product if its original identification (trade mark, serial number) markings have been defaced, altered, or removed; f) The product if it has been damaged in shipping g) Any installation and operation beyond the scope covered by relevant safety regulations (UL1741, NEC, etc.); DISCLAIMER SOLECTRIA RENEWABLES LIMITED WARRANTIES ARE THE SOLE AND EXCLUSIVE WARRANTY PROVIDED BY SOLECTRIA RENEWABLES IN CONNECTION WITH YOUR SOLECTRIA RENEWABLES PRODUCT AND ARE, WHERE PERMITTED BY LAW, IN LIEU OF ALL OTHER WARRANTIES, CONDITIONS, GUARANTEES, REPRESENTATIONS, OBLIGATIONS AND LIABILITIES, EXPRESS OR IMPLIED, STATUTORY OR OTHERWISE IN CONNECTION WITH THE PRODUCT, HOWEVER ARISING (WHETHER BY CONTRACT, TORT, NEGLIGENCE, PRINCIPLES OF MANUFACTURER'S LIABILITY, OPERATION OF LAW, CONDUCT, STATEMENT OR OTHERWISE), INCLUDING
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WITHOUT RESTRICTION ANY IMPLIED WARRANTY OR CONDITION OF QUALITY, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE TO THE EXTENT REQUIRED UNDER APPLICABLE LAW TO APPLY TO THE PRODUCT SHALL BE LIMITED IN DURATION TO THE PERIOD STIPULATED UNDER THIS LIMITED WARRANTY. IN NO EVENT WILL SOLECTRIA RENEWABLES, LLC, INCLUDING ITS SUPPLIERS, MANUFACTURERS, VENDORS, SUBCONTRAC TORS, DISTRIBUTORS, DEALERS AND ANY OTHER AFFILIATES BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, INCIDENTAL OR CONSEQUENTIAL DAMAGES, LOSSES, COSTS OR EXPENSES HOWEVER ARISING WHETHER IN CONTRACT OR TORT INCLUDING WITHOUT RESTRICTION ANY ECONOMIC LOSSES OF ANY KIND, ANY LOSS OR DAMAGE TO PROPERTY, ANY PERSONAL INJURY, ANY DAMAGE OR INJURY ARISING FROM OR AS A RESULT OF ANY USE, MISUSE OR ABUSE, OR THE (IN-) CORRECT INSTALLATION, INTEGRATION OR OPERATION OF THE PRODUCT. Solectria Renewables neither assumes nor authorizes any other person to assume for it any other liability in connection with the repair or replacement or the Product. Exclusions of the Policy: If your product is a consumer product, federal law does not allow an exclusion of implied warranties. To the extent you are entitled to implied warranties under federal law, to the extent permitted by applicable law they are limited to the duration of this Limited Warranty. Some states and provinces do not allow limitations or exclusions on implied warranties or on the duration of an implied warranty or on the limitation or exclusion of incidental or consequential damages, so the above limitation(s) or exclusion(s) may not apply to you. This Limited Warranty gives you specific legal rights. You may have other rights, which may vary from state to state or province to province. WITHOUT LIMITING THE GENERALITY OF THE FOREGOING, UNLESS SPECIFICALLY AGREED TO BY IT IN WRITING, SOLECTRIA RENEWABLES (a) MAKES NO WARRANTY AS TO THE ACCURACY, SUFFICIENCY OR SUITABILITY OF ANY TECHNICAL OR OTHER INFORMATION PROVIDED IN MANUALS OR OTHER DOCUMENTATION PROVIDED BY IT IN CONNECTION WITH THE PRODUCT; AND (b) ASSUMES NO RESPONSIBILITY OR LIABILITY FOR LOSSES, DAMAGES, COSTS OR EXPENSES, WHETHER SPECIAL, DIRECT, INDIRECT, CONSEQUENTIAL OR INCIDENTAL, WHICH MIGHT ARISE OUT OF THE USE OF SUCH INFORMATION. THE USE OF ANY SUCH INFORMATION WILL BE ENTIRELY AT THE USER'S RISK. WARNING: LIMITATIONS ON USE Please refer to your product user manual for limitations on uses of the product. Specifically, please note that Solectria Renewables products are not intended for use in connection with life support systems and Solectria Renewables makes no warranty or representation in connection with any use of the product for such purposes. Please review our Return Merchandise Authorization Policy for returning product to Solectria Renewables.
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6.2 Return Material Authorization Policy Please review our Return Merchandise Authorization Policy below after reviewing our Solectria Renewables Warranty Policy. Obtaining a required, Return Material Authorization: Before returning a product directly to Solectria Renewables you must obtain a Return Material Authorization (RMA) number and the correct factory "Ship To" address. Products must als o be shipped prepaid. Product shipments will be refused and returned at your expense if they are unauthorized, returned without an RMA number clearly marked on the outside of the shipping box, if they are shipped collect, or if they are shipped to the wrong location. Information Solectria Renewables needs when you are obtaining service: 1) The model names and serial number of your product 2) Information about the installation and use of the unit 3) Information about the failure and/or reason for the retur n 4) A copy of your dated proof of purchase. Preparing the product for shipping: 1) Package the unit safely, preferably using the original box and packing materials. Please ensure that your product is shipped fully insured in the original packaging or equivalent. This warranty will not apply where the product is damaged due to improper packaging. 2) Include the following: a. The RMA number supplied by Solectria Renewables, LLC clearly marked on the outside of the box b. A return address to which the unit can be shipped. Post office boxes are not acceptable. c. A contact telephone number where you can be reached during work hours. d. A brief description of the problem. Ship the unit prepaid to the address provided by your Solectria Renewables customer service representative. Returning a product from outside of the USA or Canada: In addition to the above, you MUST include return freight funds and are fully responsible for all documents, duties, tariffs, and deposits.
7 Technical Data Technical Information and specifications – see PVI 1800/PVI 2500 brochure for various other information and data in addition to the information in this section of the manual. (see Appendix B for info).
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Input (DC) from PV array:
• Maximum open circuit voltage of PV array: 400V DC
WARNING: NEC 690-7 must be followed to calculate the maximum number of PV modules allowed for a maximum inverter open circuit voltage (OCV) of 400V DC in extreme cold temperatures for the installation location.
• See PV string sizing charts in Appendix C.
The open circuit voltage of PV modules depends on the cell temperature and the solar irradiation. The highest open circuit voltage occurs when the PV modules are at the coldest temperature and in bright sun. (See the following figure – Fig. 10)
0
2
4
6
8
0 10 20 30
Voltage (VDC)
DC
Cu
rren
t (A
)
at 50 deg C
at 20 deg C
at -20 deg C
Fig. 10 Example representative ~100W PV module voltage –
current characteristic at various cell temperatures
Because PV modules also have a reduction in voltage at high cell temperatures, you must make sure the MPP voltage of the strings will not drop below the minimum inverter DC input voltage of 125V DC in very hot temperature conditions, including wire losses/voltage drop. Both the maximum open circuit voltage (OCV) when at cold extreme and minimum MPP voltage when at hot extreme can be calculated for a PV module using its specification sheet. PV module string sizing can then be used to determine how many modules can/should be used in a string.
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Input DC (PV) specifications for PVI 1800/PVI 2500 inverter
PVI 1800 PVI 2500
Input voltage MPP range 125V-350V DC 125V-350V DC
Maximum open circuit voltage (under all conditions) 400V DC 400V DC
Nominal Input Current 7.3A DC 10.2A DC
Maximum input current 10A DC 14A DC
Maximum PV short-circuit current 15A DC 20A DC
Maximum input power (inverter limited) 1980 Watt 2750 Watt
Maximum recommended PV power (modules @ STC) 2200 Watt 3200 Watt
Ground fault detection, interrupt yes yes
This maximum recommended power is a nominal figure based on an array with a relatively optimal tilt angle and orientation (south) as well as other average conditions. Array over-sizing is used because PV modules rarely run at their STC ratings. However, if the array is oversized too much clipping of maximum power by the inverter can occur in optimal conditions. PV module STC conditions are rarely achieved because the cells are usually at a higher temperature when full 1-sun is available, or when cells are at STC temperatures, the sun's intensity is often times less than 1-sun. Because STC conditions are rarely achieved, array over-sizing of 10-20% achieves best overall economic trade-off with inverter and array costs. The maximum recommended power to be connected to the inverter is very much dependent on average weather conditions, economic optimization, tilt and of the array and orientation (for example south, or rotating array). For arrays that are flat or nearly flat in northern location where the sun's rays are never close to being perpendicular to the array, the array can be oversized more than these recommendations. For locations that are hazy or cloudy for most of the year, also more array over -sizing may be appropriate. For arrays aiming at the sun or rotating arrays that face the sun all the time, less array over-sizing may be a good choice.
Output to AC grid connection: The PVI 1800/PVI 2500 is designed to feed power into a standard 60Hz, 240 or 208V AC utility service or 208V AC provided within a facility by a step down transformer (for example, from 480V AC service). As required by NEC, there must be a dedicated 2-pole circuit breaker for the PV inverter connection. This circuit breaker (and wiring) must have a rating of 15A. The inverter is designed to work with the range of AC voltage for a 240V AC or 208V service defined by UL1741.
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Output (AC) specifications for PVI 1800/PVI 2500 Inverter:
PVI 1800 PVI 2500
Continuous AC output power 1800 Watts AC 2500 Watts AC
Operating voltage range +/- 10% 240/208V AC 240/208V AC
Operating frequency range 59.3 to 60.5 Hz 59.3 to 60.5 Hz
Maximum Continuous Output Current 7.5A @ 240V AC 8.65A @ 208V AC
10.4A @ 240V AC 12A @ 208V AC
Maximum Continuous Output Power 1800 Watts AC @ 208 & 240 VAC
2500 Watts AC @ 208 & 240 VAC
Total Harmonic distortion (THD) (@ full power)
< 5% < 5%
Power Factor > 97% > 97%
Anti-islanding protection per UL 1741 per UL 1741
Ground fault protection NEC 690-5 NEC 690-5
Over current protection inverter limited inverter limited
Short circuit protection per UL 1741 per UL 1741
Surge test per UL 1741/IEEE 62.41 per UL 1741/IEEE 62.41
Inverter peak Efficiency* 94.1 % 94.2 %
Other specifications:
LCD Display Included Included
Pre-wired AC & DC (PV) Connections Included Included
Ambient Temperature -4o to 140o F (-20o to 60o C)
-4o to 140o F (-20o to 60o C)
Temperature for full power operation -4o to 131o F (-20o to 55o C)
-4o to 131o F (-20o to 55o C)
Storage Temperature -40o to 173o F (-40o to 70o C)
-40o to 173o F (-40o to 70o C)
Cooling Passive (PVI 1800) Fan (PVI 2500)
Enclosure NEMA 4, IP-65 NEMA 4, IP-65
Weight 34.2 lb. (15.5 kg) 36.4 lb. (16.5 kg)
*Does not include MPP tracking and other transitory phenomena.
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0
500
1000
1500
2000
2500
3000
125 175 225 275 325 375
DC Input Voltage (VDC)
AC
Ou
tpu
t P
ow
er (
W)
Output Power 2500
Output Power 1800
Fig. 11 AC Output power of PVI 1800/PVI 2500
DC input current versus DC input voltage
0
2
4
6
8
10
12
14
16
125 150 175 200 225 250 275 300 325 350 375 400
DC Input Voltage (VDC)
DC
Inp
ut
Cu
rren
t (A
)
Input current DC 1800W
Input current DC 2500W
Fig. 12 Maximum continuous DC current input for PVI 1800/PVI 2500
“strike” voltage
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707580859095
100
0 300 600 900 1200 1500 1800Power (Watts)
Effi
cien
cy %
Fig. 13a PVI 1800 efficiency plot
707580859095
100
0 500 1000 1500 2000 2500Power (Watts)
Effi
cien
cy %
Fig. 13b PVI 2500 efficiency plot
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Appendices Appendix A: Terminal assignment RS-485 / RS-232:
Pin1 Not used2 RXD (RS232)3 TXD (RS232)4 GND (RS232/RS485)5 TERM (RS485)6 RX_B (RS485)7 TX_A (RS485)8 Not used
8 1
Top view
Hint!Both RJ45 connectors have the same pinout.
+5V
0R
Notused
Notused
0R
TX_A
RX_B
TERM
GND
Representative RS485 schematic, inside the inverter
Pin3 - TD2 - RD5 - GND
RS232 9pol.Pin2 - RXD3 - TXD4 - GND
RJ45 (inverter)
RS 232 cable (schematic)
121R
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Appendix B
See separate PVI 1800/PVI 2500 brochure The brochure can also be viewed on the website: www.solren.com Link: http://www.solren.com/downloads/PVI 1800_2500.pdf
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Appendix C
Example string sizing PVI 1800/PVI 2500 (Note that the chart below is only to show how string sizing charts look. Please refer to the website version for complete and updated charts for use in all temperature zones across the country.) Updated string sizing tables are available on the website: www.solren.com All string sizing charts in: http://www.solren.com/products/pwreleccomp.html Specific PVI 1800 2500 Link: http://www.solren.com/downloads/PVI 1800_2500String.pdf
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Appendix D - Contact Information Solectria Renewables LLC 360 Merrimack Street Building 9 Lawrence, Massachusetts, USA Tel: 978.683-9700 Fax: 978.683-9702 Email: [email protected] Website: www.solren.com Authorized Dealers and Installers – see website: www.solren.com Specific link: http://www.solren.com/contact/dist.htm
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Appendix E – UL1741 Certification
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PVI 1800/PVI 2500 Installation and Operation Manual
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Appendix F – Letter of Attestation IEEE C62.41-2002
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Products
This operating and installation manual can be added to the following products:
Description Article numbe r Solectria Exendis Delta PVI 1800 PVI 1800 5.72.36.33157 D0111850 PVI 2500 PVI 2500 5.72.46.33157 D0108361
Document change record
The previous history of the document is entered on an ongoing basis with the most recent revision listed as the last item
Rev Date Author(s) Modification Draft I 20050426 J. Worden,
J Mielke First version Revision management will start when the first version is completed
1.00 20050714 G.H. Tubbing Begin of revision management 1.01 20050818 G.H. Tubbing Added CSA certificate, updated appendix A,
corrected minor typing errors 1.02 20050823 J. Worden
G.H. Tubbing Added screw ground lug on page 15 Switched paper size to A4 for correct printing of the manual
1.03 20050919 G.H. Tubbing Put description of error 506 in table, Added one table with all error codes
1.04
1.04.3 1.04.4
20060103
20060720 20060926
T.A. Lens J. Worden J. Worden
Added Letter of Attestation C62.41, Added text page 17, New String sizing examples for Appendix C and NEW Warranty Policy. Fixed various small errors and added/adjusted several photos Letter of Attestation from CSA is updated in Appendix F.
Approval
Sales manager Exendis Signature and date
T. Lens
Technical Director Exendis Signature and date
E. Raaijen
Delta Energy Systems Signature and date
W. Bergmann
Solectria Renewables Signature and date
J. Worden
Print instructions
Double sided b/w on glossy paper and folded to an A5 format manual stapled together with 2 staples and bound left edge with green or black or white binding.
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51
Document distribution
Version Date Company To 1.00 20050714 DELTA
SOLECTRIA W. Bergmann J. Worden
1.01 20050818 DELTA SOLECTRIA
W. Bergmann J. Worden
1.02 20050923 DELTA SOLECTRIA
W. Bergmann J. Worden
1.03 20050919 DELTA SOLECTRIA
W. Bergmann J. Worden
1.04.4 20060926 DELTA SOLECTRIA
W. Bergmann J. Worden